A global optimization strategy, based upon application of a genetic algorithm (GA), is demonstrated as an approach for determining the structures of molecules possessing significant conformational flexibility directly from gas-phase electron diffraction data. In contrast to the common approach to molecular structure determination, based on trial-and-error assessment of structures available from quantum chemical calculations, the GA approach described here does not require expensive quantum mechanical calculations or manual searching of the potential energy surface of the sample molecule, relying instead upon simple comparison between the experimental and calculated diffraction pattern derived from a proposed trial molecular structure. Struc...
This paper presents an overview of the genetic algorithm technique for structure solution from powde...
Rotationally resolved electronic spectroscopy yields a wealth of information on molecular structures...
The packing of molecules in solids greatly affects the properties of the bulk materials. This is par...
A global optimization strategy, based upon application of a genetic algorithm (GA), is demonstrated ...
A strategy is reported for assessing the feasibility of molecular conformations within direct-space ...
A new approach for coverage of the conformational space by a limited number of conformers is propose...
Determining the electronic structure of long chain molecules is essential to the understanding of ma...
UC-411 An important area of research in computational biochemistry is the design of molecules for sp...
The identification of low-energy conformers for a given molecule is a fundamental problem in computa...
An important area of research in computational biochemistry is the design of molecules for specific ...
Previously, the genetic algorithm (GA) approach for direct-space crystal structure solution from pow...
International audienceThis work deals with the problem of finding for a given industrial target the ...
Structure determination of organic molecular solids from powder X-ray diffraction data is nowadays c...
This paper presents an overview of developments that have taken place in recent years in the genetic...
This paper presents an overview of the genetic algorithm technique for structure solution from powde...
Rotationally resolved electronic spectroscopy yields a wealth of information on molecular structures...
The packing of molecules in solids greatly affects the properties of the bulk materials. This is par...
A global optimization strategy, based upon application of a genetic algorithm (GA), is demonstrated ...
A strategy is reported for assessing the feasibility of molecular conformations within direct-space ...
A new approach for coverage of the conformational space by a limited number of conformers is propose...
Determining the electronic structure of long chain molecules is essential to the understanding of ma...
UC-411 An important area of research in computational biochemistry is the design of molecules for sp...
The identification of low-energy conformers for a given molecule is a fundamental problem in computa...
An important area of research in computational biochemistry is the design of molecules for specific ...
Previously, the genetic algorithm (GA) approach for direct-space crystal structure solution from pow...
International audienceThis work deals with the problem of finding for a given industrial target the ...
Structure determination of organic molecular solids from powder X-ray diffraction data is nowadays c...
This paper presents an overview of developments that have taken place in recent years in the genetic...
This paper presents an overview of the genetic algorithm technique for structure solution from powde...
Rotationally resolved electronic spectroscopy yields a wealth of information on molecular structures...
The packing of molecules in solids greatly affects the properties of the bulk materials. This is par...